Fatima Shahwar, Rashid Muhammad, Hameed Amjad, Fiaz Sajid, Rebouh Nazih Y, Zaman Qamar Uz
Nuclear Institute for Agriculture and Biology College, Pakistan Institute of Engineering and Applied Sciences (NIAB-C, PIEAS), Faisalabad, Pakistan.
Institute of Molecular Biology & Biotechnology, The University of Lahore, Lahore, 54590, Pakistan.
BMC Plant Biol. 2025 Aug 8;25(1):1040. doi: 10.1186/s12870-025-07024-5.
Rice serves as staple food for four billion people but encounters yield reductions because of natural as well as biological stress factors. An analysis on 65 rice mutants alongside RICF-160 parent and Kainat commercial rice variety was conducted to measure disease resistance against brown spot using both normal and water-stress conditions as study parameters.
Selection of the thirteen mutant lines [NMSF]-1, [NMSF]-8, [NMSF]-18, [NMSF]-2, [NMSF]-7, [NMSF]-13, [NMSF]-62, [NMSF]-3, [NMSF]-4, [NMSF]-10, [NMSF]-16, [NMSF]-56 and [NMSF]-65 as drought tolerant lines demonstrated less reduction in photosynthetic rate under stress along with higher shoot lengths, increased chlorophyll levels and relative water content while showing decreased stomatal conductance and transpiration rates. The disease index evaluations were performed twice during the seedling stage under controlled conditions together with water-deficient environments. The brown spot disease resistance level of [NMSF]-1, [NMSF]-8, [NMSF]-10, [NMSF]-16, [NMSF]-56 and [NMSF]-59 mutants was considered moderate. The correlation analysis based on Pearson's method showed that growth, yield performance shared significant statistical relation with physio-biochemical traits. The control tests showed that shoot length had a positive link with photosynthesis rate as well as stress tolerance indexes. The relative water content and photosynthetic rate showed a positive relationship with chlorophyll content while the chlorophyll value had an inverse relationship with stomatal conductance. The level of stress in plants resulted in correlations where relative water content and SPAD measurements exhibited high values but chlorophyll stomatal conductance and transpiration rate decreased simultaneously. Eight principal components explained variability 83.025% when operating under both conditions. However, the PC-I contributed 22.8% of total variability.
Under the testing conditions, six of the nine analyzed components revealed positive loadings in PC-1. The stress tolerance indexes together with brown spot disease index along with rate of transpiration and rate of photosynthesis in stress condition showed greatest influence on PC-I. Analysis of present studies demonstrated five clusters among mutants and their parent line and commercial variety. The cluster-I contained fifty-four mutants and cluster-II consisted of six mutants and cluster-III consisted of four genotypes followed by two mutants alongside one genotype which enabled crucial research for rice breeding to enhance stress tolerance and disease resistance.
水稻是40亿人的主食,但由于自然和生物胁迫因素,产量会降低。对65个水稻突变体以及RICF - 160亲本和Kainat商业水稻品种进行了分析,以正常和水分胁迫条件作为研究参数,测量其对褐斑病的抗病性。
选择13个突变系([NMSF]-1、[NMSF]-8、[NMSF]-18、[NMSF]-2、[NMSF]-7、[NMSF]-13、[NMSF]-62、[NMSF]-3、[NMSF]-4、[NMSF]-10、[NMSF]-16、[NMSF]-56和[NMSF]-65)作为耐旱系,结果表明它们在胁迫下光合速率降低较少,同时茎长更长、叶绿素水平增加、相对含水量增加,而气孔导度和蒸腾速率降低。在控制条件和缺水环境下的苗期对病害指数进行了两次评估。[NMSF]-1、[NMSF]-8、[NMSF]-10、[NMSF]-16、[NMSF]-56和[NMSF]-59突变体对褐斑病的抗病水平为中等。基于皮尔逊方法的相关性分析表明,生长、产量表现与生理生化性状具有显著的统计关系。对照试验表明,茎长与光合速率以及胁迫耐受指数呈正相关。相对含水量和光合速率与叶绿素含量呈正相关,而叶绿素值与气孔导度呈负相关。植物的胁迫水平导致相对含水量和SPAD测量值呈现高值,但叶绿素、气孔导度和蒸腾速率同时降低的相关性。在两种条件下运行时,八个主成分解释了83.025%的变异性。然而,主成分I贡献了总变异性的22.8%。
在测试条件下,九个分析成分中的六个在主成分1中显示出正负荷。胁迫耐受指数、褐斑病指数以及胁迫条件下的蒸腾速率和光合速率对主成分I影响最大。对当前研究的分析表明,突变体及其亲本系和商业品种之间有五个聚类。聚类I包含54个突变体,聚类II由6个突变体组成,聚类III由4个基因型组成,其次是2个突变体和1个基因型,这为水稻育种增强胁迫耐受性和抗病性的关键研究提供了可能。
